During C. elegans development, 1090 somatic cells are generated of which 131 reproducibly die, many through apoptosis. The C. elegans BH3-only gene egl-1 is the key activator of apoptosis in somatic tissues, and it is predominantly expressed in 'cell death' lineages i.e. lineages in which apoptotic cell death occurs. egl-1 expression is regulated at the transcriptional and post-transcriptional level. For example, we previously showed that the miR-35 and miR-58 families of miRNAs repress egl-1 expression in mothers of 'unwanted' cells by binding to the 3' UTR of egl-1 mRNA, thereby increasing egl-1 mRNA turnover. In a screen for RNA-binding proteins with a role in the post-transcriptional control of egl-1 expression, we identified EIF-3.H (ortholog of human eIF3H) and HRPR-1 (ortholog human hnRNP R/Q) as potential activators of egl-1 expression. In addition, we demonstrate that the knockdown of the eif-3.H or hrpr-1 gene by RNA-mediated interference (RNAi) results in the inappropriate survival of unwanted cells during C. elegans development. Our study provides novel insight into how egl-1 expression is controlled to cause the reproducible pattern of cell death observed during C. elegans development.
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